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European Journal of Environmental and Civil Engineering Volume 25, 2021 - Issue 9
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Original Articles

Three-dimensional numerical model of internal erosion

Ahmed Chettia University Center of El-Bayadh, El-Bayadh, Algeria;b Civil Engineering and Environmental Laboratory "LGCE", University of Djillali Liabes, Sidi Bel Abbes, AlgeriaCorrespondence[email protected]
,
Ahmed Benamarc Normandie University, UNIHAVRE, CNRS, LOMC, Le Havre, France
&
Khaled Korichid Djillali Liabes University, Sidi Bel Abbes, Algeria
Pages 1539-1554 | Received 03 May 2018, Accepted 15 Feb 2019, Published online: 23 Mar 2019

References

  • Benamar, A., & Seghir, A. (2017). Physical and analytical modeling of internal erosion of fine particles in cohesionless soils. Journal of Porous Media, 20(3), 205–216. doi:10.1615/JPorMedia.v20.i3.20
  • Bonelli, S., & Marot, D. (2012). Micromechanical modeling of internal erosion. European Journal of Environmental and Civil Engineering, 15(8), 1207–1224. doi:10.3166/ejece.15.1207-1224
  • Chetti, A., Benamar, A., & Hazzab, A. (2016). Modeling of particles migration in porous media: Application to soil suffusion. Transport in Porous Media, 113(3), 591–606. doi:10.1007/s11242-016-0714-y
  • Engemoen, W. O., & Redlinger, C. G. (2009). Internal erosion incidents at bureau of reclamation dams. Paper prepared for 2009 USSD Meeting in Nashville, TN.
  • Engemoen, W. O. (2011). Bureau of Reclamation experiences with internal erosion incidents. Paper prepared for 2011 European Working Group on Internal Erosion meeting in Brno, Czech Republic, April 2011.
  • Ferguson, K. A. (2012). Investigation and Evaluation of Seepage Conditions and Potential Failure Modes Around Outlet Conduits. Proceedings of the 2012 Annual Conference, United States Society on Dams (USSD), New Orleans, LA, April, 2012.
  • Fry, J., Degoutte, G., & et Goubet, A. (1997). L’érosion interne: typologie, détection et réparation. Barrages & Réservoirs, N6 p. 126.
  • Golay, F., & Bonelli, S. (2012). Numerical modeling of suffusion as an interfacial erosion process. European Journal of Environmental and Civil Engineering, 15(8), 1225–1241. doi:10.1080/19648189.2011.9714850
  • Leveque, R. J. (2004). Finite volume method for hyperbolic problems. Cambridge, MA: Cambridge University Press.
  • Sail, Y., Marot, D., Sibille, L., & Alexis, A. (2011). Suffusion tests on cohesionless granular matter. European Journal of Environmental and Civil Engineering, 15(5), 799–817. doi:10.1080/19648189.2011.9693366
  • Scheidegger, A. E. (1961). General theory of dispersion in porous media. Journal of Geophysical Research, 66(10), 3273–3278. doi:10.1029/JZ066i010p03273
  • Schmertmann, J. H. (2000). The non-filter factor of safety against piping through sands. In F. Silva and E Kavazanjian (Eds.). ASCE Geotechnical Special Publication No. 111, Judgment and Innovation (pp. 65–132), ASCE, Reston, VA.
  • Seghir, A., Benamar, A., & Huaqing, W. (2014). Effects of fine particles on the suffusion of cohesionless soils. Transport in Porous Media, 103(2), 233–247. doi:10.1007/s11242-014-0299-2
  • Townsend, F. C., Schmertmann, J. H., Logan, T. J., Pietrus, T. J., & Wong, Y. W. (1981). An Analytical and Experimental Investigation of a Quantitative Theory for Piping in Sand, Final Report. University of Florida.
  • Vandenboer, K., Van Beek, V., & Bezuijen, A. (2014). 3D finite element method (FEM) simulation of groundwater flow during backward erosion piping. Frontiers of Structural and Civil Engineering, 8(2), 160–162. doi:10.1007/s11709-014-0257-7
  • Wan, C. F., & Fell, R. (2004). Investigation of rate of erosion of soils in embankment dams. Journal of Geotechnical and Geoenvironmental Engineering, 130(4), 373–380. doi:10.1061/(ASCE)1090-0241(2004)130:4(373)
  • Wong, Y. W. (1981). Three dimensional finite element analysis of a quantitative piping theory. Report Presented to the Department of Civil Engineering at the University of Florida in Partial Fulfillment of the Requirements for the Degree of Master of Engineering.
  • Zhen-Ming, S., Hong-Chao, Z., Song-Bo, Y., Ming, P., & Tao, J. (2018). Application of CFD-DEM to investigate seepage characteristics of landslide dam materials. Computers and Geotechnics, 101, 23–33.

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